CN101141173B - Method of starting and stopping relay function of relay station - Google Patents

Abstract

The present invention discloses a method to start and stop relay functions of wireless relay stations in wireless communication systems. In the method, a relay station and a base station can initiate a request for starting or stopping relay functions of the relay station. Firstly, the relay station and the base station negotiate to start or stop relay functions of the relay station. The relay station determines to arrange its operating mode into relay or terminal mode according to negotiation results. Moreover, the present invention discloses a relay station, which arranges its operating mode according to received request information on starting or stopping relay functions. The present invention fulfills remote control over relay station operating state and facilitates users to control their relay stations.

Description

The method of start and stop relay station relays function

Technical field

The present invention relates to a kind of wireless communication system, be specifically related to the method for the start and stop radio repeater station relay function in the wireless communication system, reach radio repeater station based on said method.

Background technology

In wireless communication system, communicate with wireless mode through electromagnetic wave signal between base station and the portable terminal.Because electromagnetic wave signal receives path attenuation, building blocks and the influence of factor such as environment, wireless signal strength will descend and be positioned at these regional communications of Mobile Terminals quality a little less than some place becomes.Along with people's is to the growth of requirement of broadband connections and wireless bandwidth, and increasingly high carrier frequency is used in the new agreement and system.Yet owing to the raising of the decay in the electromagnetic transmission process along with its frequency increases, therefore, high carrier frequency must be faced with the problem of high decay, thereby has further limited the coverage of base station.In order to solve the covering problem of above-mentioned base station, need usually to adopt radio repeater station that the wireless communication signals between base station and the travelling carriage is strengthened.Do not need wire transmission between radio repeater station and the base station, only communicate through Radio Link, thus this method to have a cost of arranging net low, dispose simple advantage.Shown in Figure 1 is a kind of wireless communication system architecture that comprises radio repeater station.Wherein, the base station can't directly cover travelling carriage 2 and travelling carriage 3, but can be respectively forwarding through relay station 1 and relay station 2 realize covering.

The owner of relay station can be an operator, also can be the user.Belong to the relay station of operator for ownership, its purpose is exactly in order to the user better service to be provided, and it mainly acts on is exactly to be used as relaying, and this relay station is a dedicated relay station.And belong to user's relay station by ownership, and being actually a kind of terminal with dual-use function, the user can be relay station pattern or ordinary terminal pattern with this terminal configuration, this relay station is non-dedicated relay station.Such as, can near the window of office, place user's relay station, this relay station provides relay services for the user terminal in this office, both can save the battery consumption of user terminal, also possibly higher throughput is provided for these users.

One of purpose of using relay station is in order to reach bigger area coverage with lower cost, and therefore, many relay stations are designed to time division duplex or the semiduplex mode of frequency division is carried out work.So-called time division duplex refers to send and receive and uses same frequency, but staggers in time, can not receive when promptly sending, and can not send when receiving.The frequency division half-duplex refers to send with receiving uses different frequencies, and staggers in time.Design can be staggered the time of relay station transceive data like this, so relay station only need use a cover radio-frequency apparatus to get final product.Because the cost of radio-frequency apparatus is higher, this design can effectively reduce the cost of relay station.

Existing relay station has two kinds of implementations usually, and a kind of is the analog junction station, and another kind is the digital junction station.

Be applied to global system for mobile communications (GSM, Global System Mobile) at present, the relay station major part that code division multiple access inserts in 2000 networks such as (CDMA2000, Code Division Multiple Access 2000) is the analog junction station.The operating frequency at analog junction station is arranged to consistent, after the analog junction station powers on, is forwarded the signal relay of accomplishing between base station and the portable terminal again after amplifying through signal that it is received with the operating frequency of base station.The shortcoming of this way is when useful signal is amplified, also noise signal to be amplified, and communication quality is brought adverse influence, simultaneously the analog junction station have produce self-oscillatory maybe, influence the normal function of himself even base station.Further, when the analog junction station adds network not through with the negotiation of base station, after the start just access network participate in the data relaying, the base station can't be controlled the work of relay station.

Then decoding earlier to the received signal in the digital junction station, forwards behind the recompile again.The digital junction station can be carried out correction process to received signal, and the noise of having accumulated in can superposed signal has more performance than analog junction station.The data relaying is participated at the digital junction station at first needs access network, still have nothing to do at present in the digital junction station how access network and exercise relay function before negotiation mechanism, the problem that exists the base station to control the work of relay station equally.

Summary of the invention

In view of this, the object of the invention is, the method that starts and stop the relay function of radio repeater station is provided respectively, realizes the control that relay station is started and stops respectively.Another purpose of the present invention is to provide a kind of relay station, and this relay station can be provided with self operating state automatically according to the order that receives.

Based on above-mentioned first purpose, a kind of method that starts the radio repeater station relay function that the present invention proposes may further comprise the steps:

A website in base station and the relay station sends to another website and starts the relay function request message;

After described another website receives and starts relay function message, send second message that accepts request to said website;

What said website received that described another website sends second accepts request after the message, and relay station starts relay function.

In this method, said website is a relay station, and described another website is the base station.Interactive messages can be transmitted by other websites that has had relay function between them.

In this method, described transmission starts the relay function request message, is solicited message to be carried in the subframe of up terminal send; The described transmission message that accepts request is response message to be carried in the downstream station subframe send.

In this method, what said website received that described another website sends second accepts request behind the response message, wait for predefined time-delay after the relay station mode of operation be set to repeater mode.

In this method, said website is provided with a timer, after sending the second startup relay function request message, starts the timer timing, and said website is judged according to above-mentioned timer:

If receive described another website response message that accepts request before timer overflows, timeing closing device and start the relay function success then;

If receive described another website refusal request response before timer overflows, timeing closing device and start the relay function failure then;

If when timer overflows, not receiving described another website yet accepts request or refuses request response; After then said website is waited for predefined a period of time; Continuation is sent to described another website and is started the relay function request message, and starts the timer timing.

In this method, said website is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and then judge the failure of startup relay function; Otherwise number of retries is added 1.

In this method, said website is the base station, and described another website is a relay station.

In this method, start the relay function request message in said transmission second and take a step forward and comprise:

Relay station sends first to the base station and starts the relay function request message;

The base station judges whether to allow this relay station to start relay function after receiving the first startup relay function request message: start the relay function request message if allow then send second to relay station.

In this method, if do not allow then send the refusal request response to relay station, if relay station receives the refusal request response, then relay station is judged and is started the relay function failure.

In this method, the transmission of the said first startup relay function request message is to carry out through solicited message being carried in the subframe of up terminal.

In this method, relay station is provided with a timer, and relay station starts the timer timing after the first startup relay function request message is sent in the base station;

Start the relay function request message if receive second before timer overflows, then the timeing closing device sends the response message that accepts request to the base station;

If receive the refusal request response of base station before timer overflows, then timeing closing device, and judgement starts the relay function failure;

If when timer overflows, do not receive above-mentioned startup relay function request message or refusal request response yet, then relay station sends the first startup relay function request message to the base station after waiting for predefined a period of time.

In this method, relay station is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and then judge the failure of startup relay function; Do not surpass then number of retries is added 1 back relay station to the base station transmission first startup relay function request message.

In this method, the transmission of said startup relay function request message is to carry out through solicited message is carried in the downstream station subframe; The transmission of the said response message that accepts request is to carry out through response message being carried in the subframe of up terminal.

In this method, after the second startup relay function request message is sent in the base station, further be that this relay station distributes uplink time, the running time-frequency resource that relay station distributes through the base station sends response message to the base station.

In this method, the mode of operation of described relay station comprises terminal pattern and repeater mode, and it is that the relay station self working mode is set to repeater mode that said relay station starts relay function.

In this method, after the relay station start, the information of it relay capabilities rank that possesses and relaying performance parameter is sent to network side.

Based on above-mentioned first purpose, a kind of method that stops the radio repeater station relay function that the present invention proposes may further comprise the steps:

A website in base station and the relay station sends second to another website and stops the relay function request message;

After described another website receives and stops the relay function request message, send second response message that accepts request to said website;

After said website received the response message that accepts request of described another website transmission, relay station stopped relay function.

In this method, said website is a relay station, and described another website is the base station.

In this method, described transmission stops the relay function request message, is to send through solicited message is carried in the uplink relay subframe; The described transmission response message that accepts request is to send through response message is carried in the downlink relay sub-frame.

In this method, what said website received that described another website sends second accepts request behind the response message, wait for predefined time-delay after the relay station mode of operation be set to terminal pattern.

In this method, said website is provided with a timer, after transmission second stops the relay function request message, starts the timer timing, and said website is judged according to above-mentioned timer:

If receive described another website response message that accepts request before timer overflows, timeing closing device and stop the relay function success then;

If receive described another website refusal request response before timer overflows, timeing closing device and stop the relay function failure then;

If when timer overflows, not receiving described another website yet accepts request or refuses request response; After then said website is waited for predefined a period of time; Continuation is sent to described another website and is stopped the relay function request message, and starts the timer timing.

In this method, said website is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and judge that then stopping relay function failing; Otherwise number of retries is added 1.

In this method, said website is the base station, and described another website is a relay station.

In this method, stop the relay function request message in said transmission second and take a step forward and comprise:

Relay station sends first to the base station and stops the relay function request message;

The base station receive first stop the relay function request message after, judge whether to allow this relay station to stop relay function: to stop the relay function request message if allow then send second to relay station.

In this method, if do not allow then send the refusal request response to relay station, if relay station receives the refusal request response, then relay station is judged and is stopped the relay function failure.

In this method, said first stop the relay function request message transmission be to carry out through request message is carried in the uplink relay subframe.

In this method, relay station is provided with a timer, and relay station starts the timer timing after base station transmission first stops the relay function request message;

Stop the relay function request message if receive second before timer overflows, then the timeing closing device sends the response message that accepts request to the base station;

If receive the refusal request response of base station before timer overflows, then timeing closing device, and judgement stops the relay function failure;

If when timer overflows, do not receive above-mentioned stopping the relay function request message or refuse request response yet, then relay station stops the relay function request message to base station transmission first after waiting for predefined a period of time.

In this method, relay station is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and judge that then stopping relay function failing; Do not stop the relay function request message to base station transmission first above then number of retries being added 1 back relay station.

In this method, the said transmission that stops the relay function request message is to carry out through solicited message is carried in the downlink relay sub-frame; The transmission of the said response message that accepts request is to carry out through response message is carried in the uplink relay subframe.

In this method, after base station transmission second stops the relay function request message, further be that this relay station distributes uplink time, the running time-frequency resource that relay station distributes through the base station sends response message to the base station.

In this method, the mode of operation of described relay station comprises terminal pattern and repeater mode, and it is that the relay station self working mode is set to terminal pattern by repeater mode that said relay station stops relay function.

In this method, after the relay station start, the relay capabilities rank that self is possessed and the information of relaying performance parameter are sent to network side.

The present invention also provides a kind of radio repeater station based on said another purpose, and this relay station starts the relay function request message if receive after startup, then start the relay function of self; Stop the relay function request message if receive, then stop the relay function of self.

Radio repeater station provided by the present invention; Its mode of operation comprises terminal pattern and repeater mode; Said startup relay function is for to convert mode of operation into repeater mode by terminal pattern, and the said relay function that stops self is to convert mode of operation into terminal pattern by repeater mode.

Radio repeater station provided by the present invention starts the back with the terminal pattern access network at said relay station, and sends relay capabilities rank and the relaying performance parameter information that self possesses to network side.

Radio repeater station provided by the present invention also sends startup relay function request message to network side at said relay station behind access network.

Can find out from the above; Startup provided by the invention and stop the method for radio repeater station relay function; Through a kind of negotiation mechanism is provided; Be used to realize that relay station is provided with under terminal and two kinds of different modes of relaying, thus make the base station can based on the performance of wireless communication system control relay station startup and stop; In addition, among the present invention, start and stop relay function and not only can initiate, can also initiate, thereby convenience is provided for the user controls its relay station of holding by relay station by the base station; Simultaneously, the inventive method also can increase timer and retry counter in the handling process that starts and stop relay function, thus the promptness and the validity of guarantee information exchange; The base station is through starting or stop the relay function request message in downlink relay sub-frame and (or the alternately) transmission simultaneously of downstream station subframe in this method; Thereby guaranteed that relay station can both receive this request under arbitrary mode of operation, guaranteed the reliability of information exchange in the negotiations process.The present invention is based on relay station that said method provides and can start or stop the relay function request message, himself mode of operation is set, thereby accepts the control of base station according to what receive.

Description of drawings

Fig. 1 is a kind of wireless communication system architecture that comprises radio repeater station;

First kind of frame structure sketch map that Fig. 2 uses for the present invention;

Second kind of frame structure sketch map that Fig. 3 uses for the present invention;

Fig. 4 is the process chart of the embodiment of the startup relay function request of base station initiation;

Fig. 5 is the process chart of the embodiment of the startup relay function request of relay station initiation;

Fig. 6 is the process chart of the embodiment that stops the relay function request of base station initiation;

Fig. 7 is the process chart of the embodiment that stops the relay function request of relay station initiation;

Fig. 8 is the process chart of another embodiment of the startup relay function request of relay station initiation;

Fig. 9 is the process chart of another embodiment that stops the relay function request of relay station initiation.

Embodiment

For the ease of explaining the present invention, Fig. 2 and Fig. 3 have provided two kinds of frame assumption diagrams that can be used for the present invention's wireless communication system communicating, but real system is not limited to this two kinds of frame structures.In addition; Only provide the data of sending between base station and the relay station only to pass through double bounce among these two embodiment; And the situation that does not have other website of process to transmit; The data of in real application systems, sending between base station and the relay station possibly passed through the multi-hop transmission more than the double bounce, but use method of the present invention not have material alterations in the situation of multi-hop transmission.Like Fig. 2 or shown in Figure 3, shaded boxes partly representes to launch data among the figure, and white box partly representes to receive data, and dashed rectangle is partly represented idle condition.As shown in Figure 2, the base station frame comprises the terminal synchronizes sequence, the terminal frame head, and terminal descending sub frame, relaying descending sub frame, terminal sub-frame of uplink and relaying sub-frame of uplink, the relaying descending sub frame comprises the relaying frame head.Wherein terminal descending sub frame and terminal sub-frame of uplink are used for the base station provides service for the terminal in its coverage, and the relay station that relaying descending sub frame and relaying sub-frame of uplink are used to the base station administration provides service.Corresponding with the base station frame; Relay station frame comprises relaying descending sub frame, terminal descending sub frame, terminal sub-frame of uplink and relaying sub-frame of uplink; Terminal descending sub frame and terminal sub-frame of uplink provide service for the terminal in this relay station compass of competency; In the relaying descending sub frame, receive data, in the relaying sub-frame of uplink, send data to the base station from the base station.Relay station is through receiving the time-frequency resource allocating information that the relaying frame head obtains relaying descending sub frame and relaying sub-frame of uplink.The terminal is obtained synchronously through terminal synchronizes sequence and base station or relay station; Obtain its resource allocation information through the receiving terminal frame head; The time-frequency resource allocating information of terminal descending sub frame and terminal sub-frame of uplink is provided in the frame head of terminal; Therefore terminals frames only receives data in the descending sub frame of terminal, in the sub-frame of uplink of terminal, sends data, in relaying descending sub frame and relaying sub-frame of uplink, does not work.As shown in Figure 3, the difference of this frame structure and frame structure shown in Figure 2 is in the frame structure shown in Figure 2 that relay station does not send terminal synchronizes sequence and terminal frame head, and relay station sends terminal synchronizes sequence and terminal frame head in the frame structure shown in Figure 3.The occasion that can be applied to improve the data rate at the terminal in the base station range shown in Figure 2.

Relay station in the present embodiment has two kinds of mode of operations of relaying mode of operation and terminal work mode.When relay station used the relay station frame structure to carry out work, this relay station was in repeater mode; When relay station used the terminals frames structure to carry out work, this relay station was in terminal pattern.The descending sub frame at the terminal, when the terminal was in accepting state, relay station was in emission state; The sub-frame of uplink at the terminal, when the terminal was in emission state, relay station was in accepting state.Among the present invention, base station and relay station can work in TDD mode, also can work in the frequency division semiduplex mode.Time division duplex refers to and adopts same frequency timesharing to receive and send, and the frequency division half-duplex refers to adopts the different frequency timesharing to receive and send.Because the time division duplex and the semiduplex restriction of frequency division of relay station, relay station can not be in terminal pattern and repeater mode simultaneously.After the relay station start, adopt with the similar step of ordinary terminal to be linked in the network, and in access procedure, comprise the information that this relay station has the relay station function in the message parameter that relay station sends.Relay station in the present embodiment can be provided with himself mode of operation according to the relay function request message that starts or stops that receives.Behind the access network, radio repeater station at first adopts the pattern work of the frame structure at terminal with ordinary terminal; After receiving startup relay function request message, relay station starts relay function, and its adopts the pattern work of the frame structure of relay station with relaying, participates in the data forwarding between base station and the portable terminal; When receive stop the relay function request message after, himself mode of operation of relay station is set to terminal pattern, stops relay function.In addition, the present invention also provides a kind of simpler relay station, and this relay station does not have two kinds of mode of operations, only has opening and closing relay function two states, after receiving startup relay function request message, then starts the relay function of self; When receive stop the relay function request message after, then stop self relay function.

Start the relay function request message in the present embodiment and stop the relay function request message through the relay function request message, for example: REL_FUN-REQ, different parameters represent that wherein, the form of relay function request message is referring to shown in the table 1:

Parameter	Length	Note
			REL_FUN-REQ_Message_Format	?	?
{	?	?
			Management?Message?Type	?8bits	Type of message
Request?mode	?2bits	0b00: start relay function 0b01: stop relay function 0b10: change repeater mode 0b11: keep the position
			if(Request?mode＝＝0)	?	?
{	?	?
			TLV?encodings	?variable	The variable element coding
?}	?	?
			}	?	?

Table 1

In the table 1, Request mode representes the type of relay function request, and when Request mode was 0b00, expression started the relay function request message; When this value was 0b01, expression stopped the relay function request message; TLV encodings representes the variable element coding; Each parameter is made up of type (Type), length (Length) and three territories of value (Value); Start the parameter that the variable element coding can comprise in the relay function request message; As shown in table 2, these parameters are used to set the type and its scope that is connected number of supporting etc. of relay station:

Type	Length (byte)	Value	Explanation
					1	1	-32dBm(0x00)～95.5dBm(0xff)	The maximum downstream through-put power, unit is dBm, quantized interval is 0.5dBm
2	2	1～65536	The maximum number of connections of supporting
				3	1	Bits#0～2: relaying type B its#3～8: keep	?

Table 2

Through relay function response (REL_FUN-RSP) message application is started or stoped relay function in the present embodiment and respond, the form of relay function response message is as shown in table 3:

Parameter	Length	Note
			REL_FUN-RSP_Message_Format	?	?
{	?	?
			Management?Message?Type	?8bits	Type of message
Status	?1bits	0x0: 0x1 accepts request: the refusal request
			Reserved	?3bits	Keep the position
If(Status＝0x0)	?	?
			{	?	?
Mode?Switch?Frame?No.	?8bits	The least-significant byte of frame number when repeater mode switches
			TLV?Encodings	?Variable	The variable element coding
}	?	?
			else	?	?
{	?	?
			?Rejection?Reason?Code	?4bits	The reason coding of refusal request
?}	?	?
			}	?	?

Table 3

In the table 3, Status representes response that the request message that starts or stops relay function is carried out, and when Status was 0x0, expression is accepted should request, and when Status was 0x1, the expression refusal should request.TLV encodings is a variable element coding, and the parameter that the variable element coding can comprise in the relay function response message is as shown in table 4, and these parameters are used to set that relay station switches the time of repeater mode and for relay station distribution running time-frequency resource etc.

Type	Length (byte)	Value	Explanation
					1	1	The least-significant byte of frame number when repeater mode switches	At this frame, relay station switches to new pattern
2	2	Bits#0～3: relaying frame head channel designator Bits#4～7: sequence number Bits#8～11 of giving the initial OFDM symbol of relay resource of this relay station distribution: OFDM symbol numbers Bits#12～15 that relay resource comprised of distributing for this relay station: keep	This parameter field is used to the running time-frequency resource that the relay station branch is used in relaying
				3	1	Bits#0～3: sequence number Bits#4～7 of giving the initial OFDM symbol of the resource that is used to terminal service of this relay station distribution: the OFDM symbol numbers that resource comprised that is used to terminal service of distributing for this relay station	This parameter field is used to relay station and distributes the running time-frequency resource that is used to terminal service

Table 4

The request of the relay function of relay station can be initiated to start or stop in relay station and base station; Cooperatively interact to accomplish through base station and relay station and start or stop the relay station relays function; At first consult to start or stop the relay function of relay station between relay station and the base station, relay station determines according to negotiation result whether its mode of operation is set to relaying or terminal work mode then.

Below in conjunction with accompanying drawing the method that starts and stop the radio repeater station relay function is elaborated.

Fig. 4 A, Fig. 4 B and Fig. 4 C are the process chart of the embodiment of the base station startup relay function of initiating; Wherein Fig. 4 A representes the base station processes part; Fig. 4 B representes the processing section with the relay station of terminal pattern work, and Fig. 4 C representes specifically to may further comprise the steps with this flow process of processing section of the relay station of repeater mode work:

Step 400 when the relay station that the base station decision lets certain be in terminal pattern starts relay function, is sent startup relay function request message to this relay station in the downstream station subframe, and is that this relay station distributes the temporal frequency resource in the subframe of up terminal;

Step 401, base station initiated timer is waited for the response message of relay station;

Step 402, the relay station that is operated in terminal pattern receives the request that starts relay function in the downstream station subframe;

Step 403, the relay station that is operated in terminal pattern judges whether to start relaying according to its configuration information: do not start relay function, then get into step 404 after in the downstream station subframe, receiving the request that starts relay function; Start relay function and then get into step 405～406;

Step 404; Relay station sends the refusal request response to the base station in the subframe of up terminal; This message comprises the information that relay station refusal starts relay function, and this message sends in the running time-frequency resource that the base station is distributed, and gets into step 407～408 subsequently;

Step 405～406; Relay station sends the response message that accepts request to the base station in the subframe of up terminal; This message comprises the information that relay station accepts to start relay function; And this message is sent in the running time-frequency resource that the base station is distributed; Its mode of operation was set to repeater mode after relay station was waited for predefined time-delay, and the predefined time delay here can be the agreement regulation, system default; Also can in the broadcast message that send the base station, provide, get into step 407～408 subsequently;

Step 407～408; Before if timer overflows; The base station receives response message in the subframe of up terminal; Judge based on response message type: accept request and judge that then relay station mode of operation after waiting for predefined time-delay is set to repeater mode, starts the relay function success, process ends; Startup failure, process ends are then judged in the refusal request;

Step 409～410; When if timer expiry overflows, the base station does not still receive the response message of relay station, and reason possibly be the request message that relay station is not received the base station; Or the response message of relay station is not received in the base station; At this moment, whether its number of times that has sent the startup request of base station judges surpasses the maximum reattempt times that are provided with in advance: surpass then judgement and start relay function failure, process ends; Do not surpass and then get into step 411;

Step 411; The base station adds 1 with number of retries, and this number of times is used for writing down relay station and sends the number of times that starts the relay function request, simultaneously for fear of sending request continually; Base station waits gets into step 412 after a period of time; Above-mentioned a period of time can be set to one random-length period, also can be the predefined one regular length period;

Step 412; The request of startup relay function is sent to relay station once more in the base station in downstream station subframe and downlink relay sub-frame; This request can be passed through in downstream station subframe and downlink relay sub-frame, to send to relay station simultaneously, perhaps also can be through the transmission that in downstream station subframe and downlink relay sub-frame, hockets, simultaneously; The base station for relay station distributes the temporal frequency resource, gets into step 401 then in corresponding sub-frame of uplink.When timer expiry overflowed, the base station did not still receive the response message of relay station, and reason possibly be the request message that relay station is not received the base station, or the response message of relay station is not received in the base station.If the latter, then relay station possibly switch to repeater mode.In order to guarantee that the relay station that is in repeater mode can receive request message, it is through all sending in downlink relay sub-frame and downstream station subframe, can receiving this request thereby assurance is in the relay station of repeater mode that the base station is sent the startup request once more.After the relay station that is in repeater mode receives this request; Because it has accomplished the mode of operation switching; Come informing base station so it sends the response message that accepts request in uplink relay subframe, the base station is that this relay station of decidable has been accomplished switching after receiving this message.

Therefore, the base station is sent once more and is started in the processing of request flow process, after above-mentioned steps 401, further comprises step 413～414 and step 415:

Step 413～414: the relay station that is operated in repeater mode; If after in downlink relay sub-frame, receiving the request that starts relay function; Because it has been in repeater mode, so relay station is through sending the switching of response message its pattern of having finished the work with informing base station that accepts request in uplink relay subframe;

Step 415: if before timer overflows, the base station receives the response message that accepts request in uplink relay subframe, then judges to start the relay function success, and relay station has switched to repeater mode, process ends;

Fig. 5 A and Fig. 5 B are the process chart of the embodiment of the relay station startup relay function of initiating, and wherein Fig. 5 A is the base station processes part, and Fig. 5 B is the relay station processing section, and this flow process specifically may further comprise the steps:

Step 500 when being in the relay station decision startup relay function of terminal pattern, is sent startup relay function request message to the base station in the subframe of up terminal;

Step 501, relay station adds 1 with number of retries, and this number of times is used for writing down relay station and sends the number of times that starts the relay function request;

Step 502, relay station starts the timer timing, waits for the response message of base station;

Step 503, base station receive the request that relay station starts relay function in the subframe of up terminal;

Step 504, the base station judges whether to allow this relay station to start relay function according to the relaying performance information of its scheduling resource situation and relay station: allow then to get into step 505～506; Do not allow then to get into step 507;

Step 505～506; The request that starts relay function is sent in the base station in the downstream station subframe; And in the subframe of up terminal, distribute the temporal frequency resource for this relay station; Then the institute except that step 403 and step 404 receives that up to the base station response message of relay station or base station surpass maximum reattempt times in steps in employing and Fig. 4 " process chart of the embodiment of the startup relay function that initiate the base station " step 401～415;

Step 507, base station are sent the refusal request response in the downstream station subframe;

Step 508, if before timer overflows, relay station receives the refusal request response in the downstream station subframe, then judges to start relay function failure, process ends;

Step 509～510; When if timer expiry overflows, relay station does not still receive the refusal request message of base station or starts the request message of relay function, and reason possibly be the request message that relay station is not received in the base station; Or relay station is not received the response message of base station; At this moment, relay station judges that it has sent the number of times that starts request and whether has surpassed the maximum reattempt times that are provided with in advance: start relay function failure, process ends above then judging; Do not surpass and then get into step 511;

Step 511 for fear of sending request continually, gets into step 500 after relay station waits for a period of time, above-mentioned a period of time, can be set to one random-length period, and also can be the predefined one regular length period.

Fig. 6 A, Fig. 6 B and Fig. 6 C are the process chart of the embodiment that stops relay function of base station initiation; Wherein Fig. 6 A is the base station processes part; Fig. 6 B is the processing section that is in the relay station of repeater mode; Fig. 6 C is the processing section that is in the relay station of terminal pattern, and this flow process specifically may further comprise the steps:

Step 600, when the relay station that the base station decision lets certain be in repeater mode stopped relay function, the base station at first stopped to transmit data through this relay station

Step 601, base station stop the relay function request message to this relay station transmission in the downstream station subframe, and are that this relay station distributes the temporal frequency resource in uplink relay subframe;

Step 602, base station initiated timer is waited for the response message of relay station;

Step 603～605; The relay station that is operated in repeater mode receives the request that stops relay function in downlink relay sub-frame after; Relay station sends the response message that accepts request to the base station in uplink relay subframe, this message is sent in the running time-frequency resource that the base station is distributed.Relay station stops relay function, and its mode of operation is set to repeater mode after waiting for predefined time-delay, and the predefined time delay here can be agreement regulation, system default, also can in base station broadcast information, specify;

Step 606, if before timer overflows, the base station receives the response message that accepts request in uplink relay subframe, then judges to stop the relay function success, relay station has switched to terminal pattern, process ends;

Step 607～608; When if timer expiry overflows, the base station does not still receive the response message of relay station, and reason possibly be the request message that relay station is not received the base station; Or the response message of relay station is not received in the base station; At this moment, whether its number of times that has sent the startup request of base station judges surpasses the maximum reattempt times that are provided with in advance: surpass then judgement and stop relay function failure, process ends; Do not surpass and then get into step 609;

Step 609; The base station adds 1 with number of retries, and this number of times is used for writing down relay station and sends the number of times that stops the relay function request, simultaneously for fear of sending request continually; Base station waits gets into step 610 after a period of time; Above-mentioned a period of time can be set to one random-length period, also can be the predefined one regular length period;

Step 610; The base station is sent once more to relay station in downstream station subframe and downlink relay sub-frame and is stopped the relay function request; This request can be passed through in downstream station subframe and downlink relay sub-frame, to send to relay station simultaneously, perhaps also can be through the transmission that in downstream station subframe and downlink relay sub-frame, hockets, simultaneously; The base station for relay station distributes the temporal frequency resource, gets into step 602 then in corresponding sub-frame of uplink.

When timer expiry overflowed, the base station did not still receive the response message of relay station, and reason possibly be the request message that relay station is not received the base station, or the response message of relay station is not received in the base station.If the latter, then relay station possibly switch to terminal pattern.In order to guarantee that the relay station that is in terminal pattern can receive request message, the base station sends once more that to stop request be through all sending in downlink relay sub-frame and downstream station subframe, can receiving this request thereby assurance is in the relay station of terminal pattern.After the relay station that is in terminal pattern receives this request; Because it has accomplished the mode of operation switching; So it at up terminal subframe send the response message that accepts request and come informing base station, the base station is that this relay station of decidable has been accomplished switching after receiving this message.

Therefore, the base station is sent once more and is stopped in the processing of request flow process, after above-mentioned steps 602, further comprises step 611～612 and step 613:

Step 611～612: the relay station that is operated in terminal pattern; If after in the downstream station subframe, receiving the request that stops relay function; Because it has been in terminal pattern, so relay station is through sending the switching of response message its pattern of having finished the work with informing base station that accepts request in the subframe of up terminal;

Step 613: if before timer overflows, the base station receives the response message that accepts request in the subframe of up terminal, then judges to stop the relay function success, and relay station has switched to terminal pattern, process ends;

Fig. 7 A and Fig. 7 B are the process chart of the embodiment that stops relay function of relay station initiation, and wherein Fig. 7 A is the base station processes part, and Fig. 7 B is the relay station processing section, and this flow process specifically may further comprise the steps:

Step 700 when the relay station decision that is in repeater mode stops relay function, is sent to the base station in uplink relay subframe and is stopped the relay function request message, and in uplink relay subframe, is this relay station distribution temporal frequency resource;

Step 701, relay station adds 1 with number of retries, and this number of times is used for writing down relay station and sends the number of times that stops the relay function request;

Step 702, relay station starts the timer timing, waits for the response message of base station;

Step 703, base station receive the request that relay station stops relay function in uplink relay subframe;

Step 704, the base station judges whether to allow this relay station to stop relay function according to its scheduling resource situation: allow then to get into step 705～707; Do not allow then to get into step 708;

Step 705～707; The base station stops to transmit data through this relay station; In downlink relay sub-frame, send the request that stops relay function then; And in downlink relay sub-frame, be this relay station distribution temporal frequency resource, and then adopt and Fig. 6 " process chart of the embodiment that stops relay function that initiate the base station " identical step in step 602～613, receive that up to the base station response message of relay station or base station surpass maximum reattempt times;

Step 708, base station are sent the refusal request response in downlink relay sub-frame, this message comprises the information that the base station refusal stops relay function;

Step 709, if before timer overflows, relay station receives the refusal request response in downlink relay sub-frame, then judges to stop relay function failure, process ends;

Step 710～711; When if timer expiry overflows, relay station does not still receive the refusal request message of base station or stops the request message of relay function, and reason possibly be the request message that relay station is not received in the base station; Or relay station is not received the response message of base station; At this moment, relay station judges whether to surpass the maximum reattempt times that are provided with in advance: surpass and judge that then stopping relay function failing process ends; Do not surpass and then get into step 712;

Step 712 for fear of sending request continually, gets into step 700 after waiting for a period of time in the relay station station, above-mentioned a period of time, can be set to one random-length period, and also can be the predefined one regular length period.

Among the embodiment of above-mentioned Fig. 4 A to Fig. 7 B; After the base station is sent and is started or stoped relay function; If do not receive the response message of relay station and do not surpass maximum reattempt times; The base station will be in downlink relay sub-frame and downstream station subframe simultaneously or alternately continue to send a request message, thereby guaranteeing that relay station is operated under any pattern can both receive this request, has guaranteed the reliability of negotiations process.Describedly in downstream station subframe and downlink relay sub-frame, send a request message simultaneously, be meant that downlink relay sub-frame and the downstream station subframe in same frame all sent this request; The described transmission that in downstream station subframe and downlink relay sub-frame, hockets if be meant and this time sending in the downstream station subframe, is in downlink relay sub-frame, to send when continuing to retransmit this request so next time.The benefit of sending simultaneously is to reduce time delay, and shortcoming is the bandwidth waste that causes to a certain degree; Alternately send then opposite.

Start or stop relay function and can also adopt more simple handling process for what relay station was initiated.Fig. 8 A, Fig. 8 B and Fig. 9 A, Fig. 9 B are respectively the process chart of another embodiment of startup that relay station initiates and the request that stops relay function, and dashed circle is partly represented the difference of this flow process and aforementioned flow process among the figure.Shown in Fig. 8 A, Fig. 8 B and Fig. 9 A, Fig. 9 B; Agree the request of relay station when the base station; The base station needn't be sent to relay station and started or stoped the relay function request, but directly sends the response message that accepts request to relay station, and relay station is the switching of execution work pattern after receiving this message.

Fig. 8 A, Fig. 8 B are the process chart of another embodiment of the relay station startup relay function of initiating, and wherein, Fig. 8 A is the base station processes part, and Fig. 8 B is the relay station processing section, and this flow process specifically may further comprise the steps:

Step 800 when being in the relay station decision startup relay function of terminal pattern, is sent startup relay function request message to the base station, and is that this relay station distributes temporal frequency resource in the subframe of up terminal in the subframe of up terminal;

Step 801, relay station adds 1 with number of retries, and this number of times is used for writing down relay station and sends the number of times that starts the relay function request;

Step 802, relay station starts the timer timing, waits for the response message of base station;

Step 803, base station receive the request that relay station starts relay function in the subframe of up terminal;

Step 804, the base station judges whether to allow this relay station to start relay function according to the relaying performance information of its scheduling resource situation and relay station: allow then to get into step 805; Do not allow then to get into step 806;

Step 805, base station are sent the response message that accepts request in the downstream station subframe, this message comprises the base station to be accepted to start the relay function information requested, gets into step 808～809 subsequently;

Step 806, base station are sent the refusal request response in the downstream station subframe, this message comprises the information that the base station refusal starts relay function, gets into step 807 subsequently;

Step 807, if before timer overflows, relay station receives the refusal request response in the downstream station subframe, then judges to start relay function request failure, process ends;

Step 808～809; Before if timer overflows; Relay station receives the response message that accepts request in the downstream station subframe; Its mode of operation is set to be repeater mode and process ends after then waiting for predefined time-delay, and preestablishing here can be agreement regulation, system default, also can in base station broadcast information, specify;

Step 810～811; When if timer expiry overflows, relay station does not still receive the response message of base station, and reason possibly be the request message that relay station is not received in the base station; Or relay station is not received the response message of base station; At this moment, relay station judges whether to surpass the maximum reattempt times that are provided with in advance: surpass and then judge the failure of startup relay function, process ends; Do not surpass and then get into step 812;

Step 812 for fear of sending request continually, gets into step 800 after waiting for a period of time in the relay station station, above-mentioned a period of time, can be set to one random-length period, and also can be the predefined one regular length period.

Fig. 9 A, Fig. 9 B are the process chart of another embodiment that stops relay function of relay station initiation, and wherein Fig. 9 A is the base station processes part, and Fig. 9 B is the relay station processing section, and this flow process specifically may further comprise the steps:

Step 900 when the relay station decision that is in repeater mode stops relay function, is sent to the base station in uplink relay subframe and is stopped the relay function request message, and in uplink relay subframe, is this relay station distribution temporal frequency resource;

Step 901, relay station adds 1 with number of retries, and this number of times is used for writing down relay station and sends the number of times that stops the relay function request;

Step 902, relay station starts the timer timing, waits for the response message of base station;

Step 903, base station receive the request that relay station stops relay function in uplink relay subframe;

Step 904, the base station judges whether to allow this relay station to stop relay function according to its scheduling resource situation: allow then to get into step 905～906; Do not allow then to get into step 907;

Step 905～906, base station stop to transmit data through this relay station, in downlink relay sub-frame, send the response message that accepts request then, and this message comprises the base station to be accepted to stop the relay function information requested, gets into step 909～910 subsequently;

Step 907, base station are sent the refusal request response in downlink relay sub-frame, this message comprises the information that the base station refusal stops relay function, gets into step 908 subsequently;

Step 908, if before timer overflows, relay station receives the refusal request response in downlink relay sub-frame, then decision request failure, process ends;

Step 909～910; Before if timer overflows; Relay station receives the response message that accepts request in downlink relay sub-frame, then relay station stops relay function, and its mode of operation is set to be repeater mode and process ends after waiting for predefined time-delay; Preestablishing here can be agreement regulation, system default, also can in base station broadcast information, specify;

Step 911～912; When if timer expiry overflows, relay station does not still receive the response message of base station, and reason possibly be the request message that relay station is not received in the base station; Or relay station is not received the response message of base station; At this moment, relay station judges whether to surpass the maximum reattempt times that are provided with in advance: surpass then decision request failure, process ends; Do not surpass and then get into step 913;

Step 913 for fear of sending request continually, gets into step 900 after waiting for a period of time in the relay station station, above-mentioned a period of time, can be set to one random-length period, and also can be the predefined one regular length period.

Among the embodiment of above-mentioned Fig. 4 A to Fig. 9 B, after the success of base station judgement stopping relay function, the base station is the SOT state of termination with the status modifier of this relay station, and stops to transmit the data of going to other terminal through this relay station; After the base station judge to start the relay function success, the base station was a relay state with the status modifier of this relay station, and according to the type of relay station, the base station sends to the data at terminal and all need in relay sub-frame, send.

Disposed by operator to some, be specifically designed to the relay station that relay services is provided for user terminal, can adopt a kind of simple mode to start relay function, reduce Signalling exchange, the mode of this simple startup relay function may further comprise the steps:

S1. after the relay station start; Comprise the parameter that application starts relay function in capability negotiation request in access network process or the login request message; This parameter comprise the request that starts relay function and corresponding relay station type with supported be connected number etc., this relay station request of this parametric representation just starts relay function behind initial access network.

S2. after the required parameter of startup relay function of relay station is received in the base station of network side; Judge whether to allow this relay station behind access network, to start relay function; And in capability negotiation response or registration reply message, inform this relay station, distribute some running time-frequency resources that are used for relay purposes for this relay station simultaneously.

S3. after relay station is received the response of base station, can judge just whether it can promptly start relay function behind access network.If allow, just then this relay station switches to repeater mode at official hour behind access network; Otherwise,, can only continue to initiate to start the application of relay function at follow-up reasonable time still with the terminal pattern operation.

The method of start and stop radio repeater station relay function of the present invention, wherein said relay station is the digital radio relay station, or possesses the wireless terminal of relay function.

Can find out that from above description the method through start and stop relay station relays function of the present invention can obtain following effect:

1. a kind of negotiation mechanism is provided, has switched under terminal and two kinds of different modes of relaying in order to the realization relay station, thereby make the base station can control the mode of operation of relay station according to the performance of wireless communication system;

2. start or stop relay function and not only can initiate, can also initiate, thereby convenience is provided for the user controls its relay station of holding by relay station by the base station;

3. starting or stoping in the handling process of relay function has increased timer and retry counter, thus the promptness and the validity of guarantee information exchange

The base station downlink relay sub-frame and downstream station subframe simultaneously (or alternately) send and start or stop the relay function request message, thereby guaranteed that relay station can both receive this request under arbitrary mode of operation, guaranteed the reliability of information exchange.

The present invention also provides a kind of relay station based on this method, and this relay station can start or stop the relay function request message according to what receive, and himself mode of operation is provided with.

In a word, above saidly be merely preferred embodiment of the present invention, be not in order to restriction the present invention.

Claims (30)

1. a method that starts the radio repeater station relay function is characterized in that, may further comprise the steps:

A website in base station and the relay station sends second to another website and starts the relay function request message;

Described another website receive second start the relay function request message after, send second response message that accepts request to said website;

What said website received that described another website sends second accepts request behind the response message, and relay station starts relay function;

Wherein, the mode of operation of said relay station comprises terminal pattern and repeater mode, and said relay station starts the back with the terminal pattern access network;

It is that the relay station self working mode is set to repeater mode that said relay station starts relay function, to participate in the data forwarding between base station and the portable terminal.

2. method according to claim 1 is characterized in that said website is a relay station, and described another website is the base station.

3. method according to claim 2 is characterized in that, described transmission second starts the relay function request message, is solicited message to be carried in the subframe of up terminal send; Described transmission second response message that accepts request is response message to be carried in the downstream station subframe send.

4. method according to claim 1 is characterized in that, what said website received that described another website sends second accepts request behind the response message, wait for predefined time-delay after the relay station mode of operation be set to repeater mode.

5. method according to claim 1 is characterized in that said website is provided with a timer, after sending the second startup relay function request message, starts the timer timing, and said website is judged according to above-mentioned timer:

If receive second of said another website response message that accepts request before timer overflows, timeing closing device and start the relay function success then;

If receive the refusal request response of said another website before timer overflows, timeing closing device and start relay function failure then;

If when timer overflows, do not receive yet second of described another website accept request response message or the refusal request response; After then said website is waited for predefined a period of time; Continuation is sent second to described another website and is started the relay function request message, and starts the timer timing.

6. method according to claim 5 is characterized in that, said website is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and then judge the failure of startup relay function; Otherwise number of retries is added 1.

7. method according to claim 1 is characterized in that said website is the base station, and described another website is a relay station.

8. method according to claim 7 is characterized in that, taking a step forward at the said transmission second startup relay function request message comprises:

Relay station sends first to the base station and starts the relay function request message;

The base station judges whether to allow this relay station to start relay function after receiving the first startup relay function request message: start the relay function request message if allow then send second to relay station.

9. method according to claim 8 is characterized in that, if do not allow then send the refusal request response to relay station, if relay station receives the refusal request response, then relay station is judged and started the relay function failure.

10. method according to claim 8 is characterized in that, the transmission of the said first startup relay function request message is to carry out through solicited message being carried in the subframe of up terminal.

11. method according to claim 8 is characterized in that, relay station is provided with a timer, and relay station starts the timer timing after the first startup relay function request message is sent in the base station;

Start the relay function request message if receive second before timer overflows, timeing closing device then sends second response message that accepts request to the base station;

If receive the refusal request response of base station before timer overflows, then timeing closing device, and judgement starts the relay function failure;

If when timer overflows, do not receive second above-mentioned startup relay function request message or refusal request response yet, then relay station sends the first startup relay function request message to the base station after waiting for predefined a period of time.

12. method according to claim 11 is characterized in that, relay station is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and then judge the failure of startup relay function; Do not surpass then number of retries is added 1 back relay station to the base station transmission first startup relay function request message.

13. method according to claim 7 is characterized in that, the transmission of the said second startup relay function request message is to carry out through solicited message is carried in the downstream station subframe; Said second accept request response message transmission be to carry out through response message being carried in the subframe of up terminal.

14. method according to claim 7 is characterized in that, after the second startup relay function request message is sent in the base station, further is that this relay station distributes uplink time, the running time-frequency resource that relay station distributes through the base station sends response message to the base station.

15. according to claim 1 or 2 or 7 described methods, it is characterized in that, after the relay station start, it information that possesses relay capabilities and relaying performance parameter be sent to network side.

16. a method that stops the radio repeater station relay function is characterized in that, may further comprise the steps:

A website in base station and the relay station sends second to another website and stops the relay function request message;

Described another website receive second stop the relay function request message after, send second response message that accepts request to said website;

What said website received that described another website sends second accepts request behind the response message, and relay station stops relay function;

Wherein, the mode of operation of said relay station comprises terminal pattern and repeater mode, and said relay station starts the back with the terminal pattern access network;

It is that the relay station self working mode is set to terminal pattern by repeater mode that said relay station stops relay function.

17. method according to claim 16 is characterized in that, said website is a relay station, and described another website is the base station.

18. method according to claim 17 is characterized in that, described transmission second stops the relay function request message, is to send through solicited message is carried in the uplink relay subframe; Described transmission second response message that accepts request is to send through response message is carried in the downlink relay sub-frame.

19. method according to claim 16 is characterized in that, what said website received that described another website sends second accepts request behind the response message, wait for predefined time-delay after the relay station mode of operation be set to terminal pattern.

20. method according to claim 19 is characterized in that, said website is provided with a timer, after transmission second stops the relay function request message, starts the timer timing, and said website is judged according to above-mentioned timer:

If receive second of described another website response message that accepts request before timer overflows, timeing closing device and stop the relay function success then;

If receive the refusal request response of described another website before timer overflows, timeing closing device and stop relay function failure then;

If when timer overflows, do not receive yet second of described another website accept request response message or the refusal request response; After then said website is waited for predefined a period of time; Continuation is sent second to described another website and is stopped the relay function request message, and starts the timer timing.

21. method according to claim 20 is characterized in that, said website is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and judge that then stopping relay function failing; Otherwise number of retries is added 1.

22. method according to claim 16 is characterized in that, said website is the base station, and described another website is a relay station.

23. method according to claim 22 is characterized in that, stops the relay function request message in said transmission second and takes a step forward and comprise:

Relay station sends first to the base station and stops the relay function request message;

After base station reception first stops the relay function request message, judge whether to allow this relay station to stop relay function: to stop the relay function request message if allow then send second to relay station.

24. method according to claim 23 is characterized in that, if do not allow then send the refusal request response to relay station, if relay station receives the refusal request response, then relay station is judged and is stopped the relay function failure.

25. method according to claim 23 is characterized in that, said first stop the relay function request message transmission be to carry out through solicited message is carried in the uplink relay subframe.

26. method according to claim 23 is characterized in that, relay station is provided with a timer, and relay station starts the timer timing after base station transmission first stops the relay function request message;

Stop the relay function request message if receive second before timer overflows, timeing closing device then sends second response message that accepts request to the base station;

If receive the refusal request response of base station before timer overflows, then timeing closing device, and judgement stops the relay function failure;

Do not stop relay function request message or refusal request response if when timer overflows, receive above-mentioned second yet, then relay station sends first to the base station and stops the relay function request message after waiting for predefined a period of time.

27. method according to claim 26 is characterized in that, relay station is provided with a retry counter, when described timer overflows, judges whether to surpass the maximum times that is provided with in advance: surpass and judge that then stopping relay function failing; Do not stop the relay function request message to base station transmission first above then number of retries being added 1 back relay station.

28. method according to claim 26 is characterized in that, said second stop the relay function request message transmission be to carry out through solicited message is carried in the downlink relay sub-frame; Said second accept request response message transmission be to carry out through response message is carried in the uplink relay subframe.

29. method according to claim 22 is characterized in that, after base station transmission second stops the relay function request message, further is that this relay station distributes uplink time, the running time-frequency resource that relay station distributes through the base station sends response message to the base station.

30., it is characterized in that after the relay station start, the relay capabilities rank that self is possessed and the information of relaying performance parameter are sent to network side according to claim 16 or 17 or 22 described methods.

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